JP2005038483A - Method for loading and unloading disk recording medium, and disk drive unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To thin a disk drive unit 21 designed for swinging a traverse mechanism 24 on which an optical pickup 29 and a spindle motor 27 are mounted to realize the front loading of an optical disk 22 at low cost. <P>SOLUTION: In the displacing mechanism 28 of the optical pickup 29, the end of the radial direction outside of an optical disk 22 is extended over the outer peripheral part of the optical disk 22. During loading, the optical pickup 29 is retreated to the extended end. Thus, the optical pickup 29 made thicker than the spindle motor 27 and designed to decide the thickness of the entire device is thinned by reducing its swing displacing amount from a reference code H1 to H2 while surely preventing contact with the optical disk 22. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mechanism of a disk drive apparatus that is preferably implemented as an optical disk recording / reproducing apparatus that performs at least one of recording and reproduction of a disk-shaped recording medium such as an optical disk, and a method for inserting / removing a recording medium in the disk drive apparatus In particular, the present invention relates to a so-called front loading system in which the recording medium is inserted into and removed from the insertion port (loading / unloading).
[0002]
[Prior art]
FIG. 10 is a plan view showing the structure of a typical prior art disk drive device 1 of the front loading system, and FIG. 11 is a longitudinal sectional view for explaining the operation of the disk drive device 1. This disk drive apparatus 1 is generally configured to include a disk transport mechanism 3 that transports an optical disk 2 between the outside and the inside of the apparatus, a traverse mechanism 4 to be described later, and a clamp mechanism 5. The optical disc 2 is, for example, a DVD (digital video disc) or a CD (compact disc).
[0003]
FIGS. 10 and 11A show a state in which the optical disk 2 is held so as to be rotatable (recordable / reproducible) in the apparatus. The optical disk 2 is placed on a turntable 6 and is sandwiched at a predetermined recording / reproducing position by the cooperative operation of the turntable 6 and the clamp mechanism 5, and the turntable 6 is rotationally driven by a spindle motor 7. The guide mechanism 8 moves the optical pickup 9 in the substantially radial direction while bringing the optical pickup 9 close to the recording surface of the optical disc 2 so that information on the recording surface is recorded and / or reproduced sequentially.
[0004]
The clamp mechanism 5 includes a clamper 5a and a stopper 5b. The clamper 5a includes a clamp part 5c for sandwiching the optical disk 2 between the turntable 6 by magnetic adsorption or the like, a small-diameter connecting part 5d connected to the clamp part 5c, and a large-diameter connecting to the connecting part 5d. And a flange portion 5e. On the other hand, the stopper 5b is formed with a hole 5f into which the connecting portion 5d is loosely inserted. Therefore, as will be described later, the optical disk 2 is pivotably clamped on the turntable 6 according to the height positions of the optical disk 2 and the turntable 6 and can be released for loading / unloading operations.
[0005]
The disk transport mechanism 3 is shown only in the tray in FIGS. 10 and 11, but as will be described later, from the recording / reproducing position shown in FIG. As shown in c), the optical disk 2 is placed on the tray, and is moved horizontally with respect to the insertion slot 11 of the apparatus body 10 to carry the optical disk 2.
[0006]
The traverse mechanism 4 includes the turntable 6, a spindle motor 7 that rotationally drives the turntable 6, a guide mechanism 8, an optical pickup 9 that is mounted on the guide mechanism 8 and is driven to shift, and a frame on which they are mounted. 12 and a drive source (not shown) for swinging and shifting the frame 12. The base end of the frame 12 extends outward from the outer diameter of the optical disc 2, and the frame 12 can swing and change by an axis 12 a that is parallel to the optical disc 2 and orthogonal to the insertion / ejection direction 13 of the optical disc 2. A guide mechanism 8 and a pickup 9 are provided from the base end side, and a spindle motor 7 for supporting the turntable 6 is mounted on the free end portion.
[0007]
Therefore, when the frame 12 is raised by the drive source (not shown), the recording / reproducing state shown in FIG. 11A is established, and the turntable 6 lifts the optical disk 2 and the clamper 5a placed on the tray. Then, the optical disk 2 is sandwiched between the clamp part 5c and the clamper 5a so as to be rotatable. On the other hand, at the time of loading / unloading, as shown in FIG. 11 (b), the frame 12 is lowered in the direction of the arrow 14, and the turntable 6 comes out of the table hole 15 formed in the tray. As a result, the optical disk 2 is placed on the tray, and the clamper 5a is restricted from descending by the flange portion 5d and is separated from the optical disk 2. Thus, the optical disk 2 can be shifted in the insertion / ejection direction 13.
[0008]
12 and 13 are a plan view and a bottom view of the traverse mechanism 4, respectively. The guide mechanism 8 includes a rail 8a on which an optical pickup 9 is mounted, a lead screw 8b, and a stepping motor 8c integrated with the lead screw 8b. The optical pickup 9 is installed between the rail 8a and the lead screw 8b forming a pair. The moving piece 9a corresponding to the rail 8a can slide on the rail 8a, and the moving piece 9b corresponding to the lead screw 8b is driven and rotated by the stepping motor 8c. Thus, a driving force is generated in the axial direction of the lead screw 8b. A pickup main body 9c on which an optical system and a light emitting / receiving element are mounted is supported between the moving pieces 9a and 9b.
[0009]
In the disk drive device 1 configured as described above, the disk ejection operation will be described with reference to FIG. When it becomes necessary to eject the optical disk 2 to the outside of the apparatus 10, the spindle motor 7 immediately starts an operation of stopping its rotation, and the optical pickup 9 also stops the signal reading or writing operation. Thereafter, the optical pickup 9 is displaced and driven by the stepping motor 8c of the traverse mechanism 4 in the direction of the rotation center of the optical disc 2 (inward in the radial direction of the optical disc 2, the free end side of the traverse mechanism 4). As shown in a), the process waits at a transition end position in the vicinity of the spindle motor 7.
[0010]
Subsequently, the traverse mechanism 4 starts to descend in the direction of the arrow 14, and the turntable 6 and the optical disc 2 also descend. At this time, the clamper 5a starts to descend integrally with the optical disc 2 and the spindle motor 7 by the suction force of the clamp portion 5c to the turntable 6. When the lowering amount of the clamper 5a reaches the length of the connecting portion 5d, the lowering of the clamper 5a is limited by the flange portion 5d and the stopper 5b, so that the clamper 5a finishes the clamping operation, and the optical disc 2 is release.
[0011]
The released optical disk 2 continues to descend, but is received by the tray of the disk transport mechanism 3 and held in a substantially horizontal state as shown in FIG. The spindle motor 7 further descends and stops at a position where it does not hinder the operation of the disk transport mechanism 3 described later. This position is also a position where the optical pickup 9 and the optical disc 2 held in the tray do not come into contact with the optical pickup 9 during the disc transport operation. The tray of the disk transport mechanism 3 is transported in the discharge direction 13a as shown in FIG. 11C by a transport mechanism drive unit (not shown) with the optical disk 2 mounted thereon.
[0012]
The optical disk 2 is carried in from the outside of the apparatus 10 in the direction of the arrow 13b by a procedure substantially reverse to the above operation. Thus, in realizing the front loading, the traverse mechanism 4 is swung around the shaft 12a as a swing fulcrum and retracted from the transport path of the optical disc 2, thereby reducing costs compared to an elevator mechanism or the like. The contact between the optical pickup 9 and the optical disk 2 can be avoided.
[0013]
Here, as another prior art, for example, JP-A-6-44633 is cited. However, this prior art relates to the retraction of the bias unit in a so-called magnetic assist optical disc apparatus that uses a combination of a bias coil unit and a write optical head. The bias unit is often used in a substantially contact state with the disk surface, and its operation locus is basically a parallel movement. Therefore, there is no description regarding retraction due to the swing displacement of the optical head as in the present invention. In particular, since the optical media such as the DVD and CD can be recorded and reproduced with only a non-contact optical head (the optical pickup 9), by retracting only the optical head, avoiding contact with the disk, The entire apparatus can be reduced in thickness.
[0014]
[Patent Document 1]
Japanese Laid-Open Patent Publication No. 6-44633 (Publication Date: February 18, 1994)
[0015]
[Problems to be solved by the invention]
In the prior art as described above, it is necessary to eject the optical disc 2 after the optical pickup 9 has moved to the vicinity of the mounting position of the spindle motor 7 of the traverse mechanism 4 (the transition end position on the radially inner side of the optical disc 2). . This is because when the optical disk 2 to be ejected and inserted is inclined, the possibility of contact is lower when the optical pickup 9 is closer to the turntable 6 on which the optical disk 2 is mounted. For this reason, the optical pickup 9 is furthest away from the shaft 12a, which is the center of oscillation of the traverse mechanism 4. Then, the distance between the optical pickup 9 and the optical disc 2 after the completion of the lowering operation is maximized, and it is possible to reliably avoid contact between the two during ejection and insertion.
[0016]
However, in the disk drive device 1 as described above, in order to reliably avoid contact between the optical pickup 9 and the optical disk 2, if an attempt is made to increase the distance between the optical pickup 9 and the optical disk 2 when lowered, the disk drive device 1 swings as described above. It becomes necessary to shift the optical pickup 9 to the end of the turntable 6 side, and naturally, the swinging displacement amount of the optical pickup 9 is maximized. However, in general, the optical pickup 9 is thicker than the combination of the turntable 6 and the spindle motor 7 that rotationally drives the turntable 6, and the optical pickup 9 is radially outward of the optical disc 2 than the spindle motor 7. However, the thickness H1 of the entire device is restricted by the thickness of the optical pickup 9.
[0017]
Here, in order to reduce the thickness H1, it is conceivable to use a thin optical pickup in advance. However, it is generally expensive and is not used only for components that originally account for a high proportion of the cost of the entire drive device. It is usually done. On the other hand, thin wall-mounted products that are integrated with DVD, CD, amplifiers, speakers, HDDs, tuners and other peripheral devices are becoming mainstream, mainly for large flat monitors. Thinness is becoming more important than occupied area.
[0018]
An object of the present invention is to provide a disc-shaped recording medium insertion / removal method and a disc drive apparatus that can be reduced in thickness.
[0019]
[Means for Solving the Problems]
The method for inserting / removing a disk-shaped recording medium according to the present invention avoids contact between the recording medium and the pickup by causing the pickup to sink from the mounting surface of the recording medium when the disk-shaped recording medium is inserted / removed. The recording medium is inserted and removed in the surface direction, and the mechanical block on which the pickup is mounted has a free end on the turntable side and a base end on the upstream side in the discharge direction of the recording medium. When the recording medium is inserted or removed, the mechanical block realizes the sinking by moving the free end portion away from the base end portion in the thickness direction of the recording medium with the base end portion as a swing fulcrum. In the disc-shaped recording medium insertion / removal method described above, a guide mechanism for guiding the pickup in a substantially radial direction of the recording medium in order to realize recording / reproduction is provided. Formed on the mechanical block so as to be parallel to the direction, and an end on the radially outer side of the recording medium extends beyond the outer periphery of the recording medium. Is retracted to its extended end.
[0020]
According to the above configuration, in a so-called front-loading type optical disc recording / reproducing apparatus that performs at least one of recording and reproduction of an optical disc and inserting / removing (loading / unloading) the optical disc in the surface direction from an insertion slot. A mechanical block on which at least the pickup is mounted (in many cases, the pickup and the turntable are integrated) in order to enable movement in the surface direction of the recording medium to realize the front loading. In the method for inserting / removing the disc-shaped recording medium in which the subsidence is realized by swinging and displacing the mechanical block, the mechanical block has a free end on the turntable side, and the recording medium is ejected in the ejecting direction of the recording medium. It has a base end on the upstream side, and when inserting or removing the recording medium, By free end side away displaced in the thickness direction of the recording medium, the moving area of the recording medium the pickup (in the case of integral turntable also) retracts the. This avoids contact between the pickup and the recording medium at low cost.
[0021]
However, in such a configuration, in order to reliably avoid contact between the pickup and the recording medium, if the interval between them is increased, the pickup is moved to the turntable side which is the swing free end side. It is necessary to keep it. However, by doing so, the amount of rocking displacement of the pickup becomes the largest. Generally, a pickup is thicker than a combination of the turntable and a spindle motor that rotationally drives the turntable, and the pickup is provided on the radially outer side of the recording medium than the spindle motor. The overall thickness is limited by the thickness of the pickup.
[0022]
Therefore, in the present invention, the guide mechanism is formed on the mechanical block so that the locus of the pickup is parallel to the insertion / ejection direction of the recording medium, and the end on the radially outer side of the recording medium is formed. The portion is extended beyond the outer peripheral portion of the recording medium, and at the time of insertion / removal, the pickup is retracted to the extended end.
[0023]
Therefore, even if the amount of sinking of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor and to reduce the thickness of the apparatus.
[0024]
Further, according to the method for inserting / removing a disc-shaped recording medium of the present invention, when the disc-shaped recording medium is inserted / removed, the pickup sinks from the mounting surface of the recording medium, thereby avoiding contact between the recording medium and the pickup. However, the recording medium is inserted and removed in the surface direction, and the mechanical block on which the pickup is mounted has a free end on the turntable side, and the recording medium is placed at the recording / reproducing position. In the state, a base end portion is provided on the upstream side in the discharge direction from a diameter line perpendicular to the discharge direction of the recording medium, and when the recording medium is inserted or removed, the mechanical block moves the base end portion to a swing fulcrum. In the method of inserting / removing a disc-shaped recording medium in which the sinking is realized by moving the free end side away in the thickness direction of the recording medium, the pickup is used to realize the recording / reproduction. A guide mechanism for guiding the recording medium in a substantially radial direction is formed on the mechanical block so that a locus of the pickup is within a range upstream of the diameter line in the discharge direction, and outside the radial direction. An end portion on the side is extended beyond the outer peripheral portion of the recording medium, and the pickup is retracted to the extended end portion at the time of insertion / removal.
[0025]
According to the above configuration, in a so-called front-loading type optical disc recording / reproducing apparatus that performs at least one of recording and reproduction of an optical disc and inserting / removing (loading / unloading) the optical disc in the surface direction from an insertion slot. A mechanical block on which at least the pickup is mounted (in many cases, the pickup and the turntable are integrated) in order to enable movement in the surface direction of the recording medium to realize the front loading. In the method of inserting / removing a disc-shaped recording medium in which the sinking is realized by swinging and displacing the mechanical block, the mechanical block has a free end on the turntable side, and the recording medium performs recording / reproduction. In the state of being placed at the position, the diameter direction perpendicular to the discharge direction of the recording medium When the recording medium is inserted / removed, the free end side moves away from the base end in the thickness direction of the recording medium when the recording medium is inserted / removed. The pickup (and the turntable in the case of integration) is withdrawn from the area. This avoids contact between the pickup and the recording medium at low cost.
[0026]
However, in such a configuration, in order to reliably avoid contact between the pickup and the recording medium, if the interval between them is increased, the pickup is moved to the turntable side which is the swing free end side. It is necessary to keep it. However, by doing so, the amount of rocking displacement of the pickup becomes the largest. Generally, a pickup is thicker than a combination of the turntable and a spindle motor that rotationally drives the turntable, and the pickup is provided on the radially outer side of the recording medium than the spindle motor. The overall thickness is limited by the thickness of the pickup.
[0027]
Therefore, in the present invention, the guide mechanism is formed on the mechanical block so that the trajectory of the pickup is within the range on the upstream side in the discharge direction from the diameter line, and on the radially outer side thereof. An end portion is formed so as to extend beyond the outer peripheral portion of the recording medium, and at the time of insertion / removal, the pickup is retracted to the extended end portion.
[0028]
Therefore, even if the amount of sinking of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor and to reduce the thickness of the apparatus.
[0029]
Furthermore, the disk drive device of the present invention prevents the contact between the recording medium and the pickup while the pickup sinks from the mounting surface of the recording medium when the disk-shaped recording medium is inserted / removed. The recording medium is inserted into and removed from the surface direction, and the mechanical block on which the pickup is mounted has a free end on the turntable side, and a base end on the upstream side in the discharge direction of the recording medium, When the recording medium is inserted / removed, the mechanical block realizes the sinking by moving the free end portion away from the base end portion in the thickness direction of the recording medium with the base end portion as a swing fulcrum. In the drive device, the guide mechanism for guiding the pickup in a substantially radial direction of the recording medium in order to realize recording / reproduction is such that the locus of the pickup is a method of inserting / removing the recording medium. Are formed on the mechanical block so as to be parallel to each other, and an end portion on the radially outer side of the recording medium extends beyond the outer peripheral portion of the recording medium. Control means for driving the mechanical block, controlling the guide mechanism, and retracting the pickup to the extended end.
[0030]
According to the above configuration, it is implemented as a so-called front-loading type optical disk recording / reproducing device or the like, and at least the pickup is mounted to enable movement in the surface direction of the recording medium for realizing the front loading. In the disk drive device that realizes the sinking by swinging and displacing the mechanical block, the mechanical block has a free end on the turntable side, and is upstream of the recording medium discharge direction. When the recording medium is inserted / removed, the free end side moves away from the moving area of the recording medium with the base end serving as a swing fulcrum. The pickup is retracted. This avoids contact between the pickup and the recording medium at low cost.
[0031]
However, in such a configuration, in order to reliably avoid contact between the pickup and the recording medium, if the interval between them is increased, the pickup is moved to the turntable side which is the swing free end side. It is necessary to keep it. However, by doing so, the amount of rocking displacement of the pickup becomes the largest. Generally, the pickup is thicker than the combination of the turntable and the spindle motor that rotationally drives the pickup, and the pickup is provided on the outer side in the radial direction of the recording medium than the spindle motor, and thus on the swing fulcrum side. However, the thickness of the entire apparatus is limited by the thickness of the pickup.
[0032]
Therefore, in the present invention, the guide mechanism is formed on the mechanical block so that the locus of the pickup is parallel to the insertion / ejection direction of the recording medium, and the end on the radially outer side of the recording medium is formed. A portion extending beyond the outer peripheral portion of the recording medium, and a control means is provided. When the recording medium is inserted or removed, the mechanical block is driven and the guide mechanism is controlled to extend the pickup. Retreat to the formed end.
[0033]
Therefore, even if the amount of sinking of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor and to reduce the thickness of the apparatus.
[0034]
Further, the disk drive device of the present invention prevents the contact between the recording medium and the pickup while the pickup sinks from the mounting surface of the recording medium when the disk-shaped recording medium is inserted / removed. The medium block is inserted into and removed from the surface, and the mechanical block on which the pickup is mounted has a free end on the turntable side, and the recording medium is placed in the recording / reproducing position. A base end portion upstream from the diameter line perpendicular to the medium discharge direction in the discharge direction; and when inserting or removing the recording medium, the mechanical block uses the base end portion as a swing fulcrum to move the free end In the disk drive device that realizes the subsidence by moving away from the recording medium in the thickness direction of the recording medium, the pickup is connected to the recording medium in order to realize the recording / reproduction. The guide mechanism for guiding in the radial direction is formed on the mechanical block so that a locus of the pickup is within a range on the upstream side in the discharge direction from the diameter line, and an end portion on the radially outer side thereof Is extended beyond the outer periphery of the recording medium, and when the recording medium is inserted / removed, the mechanical block is driven and the guide mechanism is controlled to retract the pickup to the extended end. It is characterized by including a control means.
[0035]
According to the above configuration, it is implemented as a so-called front-loading type optical disc recording / reproducing device or the like, and at least the pickup is mounted to enable movement in the surface direction of the recording medium for realizing the front loading. In the disk drive device that realizes the sinking by swinging and displacing the mechanical block, the mechanical block has a free end on the turntable side, and the recording medium is in the recording / reproducing position. In the mounted state, it has a base end portion on the upstream side in the discharge direction from a diameter line perpendicular to the discharge direction of the recording medium, and when the recording medium is inserted and removed, the base end portion is used as a rocking fulcrum. Then, the pickup end is retracted from the moving area of the recording medium by moving the free end portion away in the thickness direction of the recording medium. This avoids contact between the pickup and the recording medium at low cost.
[0036]
However, in such a configuration, in order to reliably avoid contact between the pickup and the recording medium, if the interval between them is increased, the pickup is moved to the turntable side which is the swing free end side. It is necessary to keep it. However, by doing so, the amount of rocking displacement of the pickup becomes the largest. Generally, the pickup is thicker than the combination of the turntable and the spindle motor that rotationally drives the pickup, and the pickup is provided on the outer side in the radial direction of the recording medium than the spindle motor, and thus on the swing fulcrum side. However, the thickness of the entire apparatus is limited by the thickness of the pickup.
[0037]
Therefore, in the present invention, the guide mechanism is arranged such that the trajectory of the pickup is within the range on the upstream side in the discharge direction from the diameter line, and the end portion on the radially outer side is disposed on the recording medium. In addition to extending the outer periphery, a control means is provided, and when the recording medium is inserted / removed, the mechanical block is driven and the guide mechanism is controlled so that the pickup is attached to the extended end. Evacuate it.
[0038]
Therefore, even if the amount of sinking of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor and to reduce the thickness of the apparatus.
[0039]
Furthermore, in the disk drive device of the present invention, the disk-shaped recording medium is rotationally driven by the turntable, and the guide mechanism moves in a substantially radial direction while bringing the pickup close to the recording surface of the recording medium. In the disk drive device in which the information on the recording surface is sequentially recorded / reproduced, the guide mechanism has the pickup trajectory in a state where the recording medium is placed at the recording / reproduction position. An end portion on the radially outer side extends from the diameter line perpendicular to the discharge direction of the recording medium within the upstream side of the discharge direction and extends beyond the outer peripheral portion of the recording medium, When the recording medium is inserted / removed, control means for controlling the guide mechanism and retracting the pickup to the extended end is provided.
[0040]
According to the above configuration, in the disk drive device that performs at least one of recording and reproduction of the optical disk, in order to realize so-called front loading, the guide mechanism is arranged so that the locus of the pickup is set to the recording / reproduction position of the recording medium. In the mounted state, the radially outer end of the recording medium is located within a range upstream of the diameter direction perpendicular to the recording medium ejection direction. It extends beyond. Then, when the recording medium is inserted / removed, the control means controls the guide mechanism and retracts the pickup to the extended end.
[0041]
Therefore, it is possible to reliably avoid contact between the tip of the pickup and the recording medium being inserted / removed and prevent damage to the pickup, and in order to avoid contact between the pickup and the recording medium, There is no need to drive displacement in the thickness direction of the recording medium, and the apparatus can be made thinner. Further, the mechanical mechanism that performs the variable movement operation can be reduced, and the mechanical mechanism can be simplified, the cost can be reduced, and the reliability can be improved.
[0042]
Further, in the disk drive device of the present invention, the control unit is configured to perform the guide mechanism in parallel with an operation of stopping the spindle motor that rotationally drives the turntable from being decelerated in response to an external recording medium discharge request. The pickup is retracted, and when they are finished, the transport mechanism is made to discharge the recording medium.
[0043]
According to the above configuration, the time required for retracting the pickup is shortened by performing the retraction of the pickup in parallel with the deceleration operation, not after the spindle motor is stopped. It is possible to move quickly to the discharging operation and to shorten the unloading time.
[0044]
Furthermore, the disk drive apparatus of the present invention is characterized in that a cleaning means for the pickup is provided at the end of the extended guide mechanism.
[0045]
According to said structure, in order to avoid the contact with the said recording medium, the area | region newly needed by this invention for the retraction | saving of a pick-up is effectively utilized by providing cleaning means, such as a cleaner. be able to.
[0046]
In the disk drive device of the present invention, the control means stops the spindle motor that rotationally drives the turntable in response to an external recording medium ejection request and completes the withdrawal of the pickup by the guide mechanism. After that, the pickup is caused to be cleaned by the cleaning means at the same time when the discharge operation of the recording medium by the transport mechanism is started.
[0047]
According to the above configuration, since the pickup is cleaned by the cleaning unit at the start of the discharge operation of the recording medium by the transport mechanism, the cleaning end time can be shortened, and the next recording medium is inserted. The next recording medium can be read / written quickly even if it is completed or not completed.
[0048]
DETAILED DESCRIPTION OF THE INVENTION
The following describes the first embodiment of the present invention with reference to FIGS.
[0049]
FIG. 1 is a plan view showing the structure of a disk drive device 21 according to the first embodiment of the present invention, and FIG. 2 is a longitudinal sectional view for explaining the operation of the disk drive device 21. The disk drive device 21 is generally configured to include a disk transport mechanism 23 that transports the optical disk 22 between the outside and the inside of the apparatus, a traverse mechanism 24 described later, and a clamp mechanism 25. The optical disk 22 is, for example, a DVD (digital video disk) or a CD (compact disk).
[0050]
FIG. 1 and FIG. 2A show a state in which the optical disk 22 is held so as to be rotatable (recordable / reproducible) in the apparatus. The optical disk 22 is placed on a turntable 26, and is sandwiched at a predetermined recording / reproducing position by the cooperative operation of the turntable 26 and the clamp mechanism 25. The turntable 26 is rotationally driven by a spindle motor 27, The guide mechanism 28 moves the optical pickup 29 in the substantially radial direction while bringing the optical pickup 29 close to the recording surface of the optical disc 22 so that information on the recording surface is recorded and / or reproduced sequentially.
[0051]
The clamp mechanism 25 includes a clamper 25a and a stopper 25b. The clamper 25a includes a clamp portion 25c that holds the optical disk 22 between the turntable 26 by magnetic attraction, a small-diameter connecting portion 25d that continues to the clamp portion 25c, and a large-diameter connecting to the connecting portion 25d. And a flange portion 25e. On the other hand, the stopper 25b is formed with a hole 25f into which the connecting portion 25d is loosely inserted. Therefore, as will be described later, the optical disk 22 is pivotally clamped on the turntable 26 according to the height positions of the optical disk 22 and the turntable 26, and can be released for loading / unloading operations.
[0052]
The disk transport mechanism 23 is shown only in the tray in FIGS. 1 and 2, but as will be described later, from the recording / reproducing position shown in FIG. 2 (a), as shown in FIG. 2 (b). Then, the optical disk 22 is placed on the tray, and the optical disk 22 is transported by moving in the horizontal direction between the insertion slot of the apparatus main body.
[0053]
The traverse mechanism 24 includes the turntable 26, a spindle motor 27 that rotationally drives the turntable 26, a guide mechanism 28, an optical pickup 29 that is mounted on the guide mechanism 28 and is driven to shift, and a frame on which they are mounted. 32 and a drive source (not shown) that drives the frame 32 to swing and change. The base end of the frame 32 extends outward from the outer diameter of the optical disk 22, and can be oscillated and shifted by an axis 32 a that is parallel to the optical disk 22 and orthogonal to the insertion / ejection direction 33 of the optical disk 22. A guide mechanism 28 and an optical pickup 29 are provided from the base end side, and a spindle motor 27 for supporting the turntable 26 is mounted on the free end portion.
[0054]
Therefore, when the frame 32 is raised by the drive source (not shown), the recording / reproducing state shown in FIG. 2A is established, and the turntable 26 lifts the optical disk 22 and the clamper 25a placed on the tray. Then, the optical disk 22 is sandwiched between the clamp part 25c and the clamper 25a so as to be rotatable. On the other hand, at the time of loading / unloading, the frame 32 is lowered in the direction of the arrow 34 as shown in FIG. 2B, and the turntable 26 comes out of the table hole 35 formed in the tray. As a result, the optical disk 22 is placed on the tray, and the clamper 25a is restrained from lowering by the flange portion 25d and is separated from the optical disk 22. In this way, the optical disk 22 can be shifted in the insertion / ejection direction 33.
[0055]
3 and 4 are a plan view and a bottom view of the traverse mechanism 24, respectively. The guide mechanism 28 includes a rail 28a and a lead screw 28b on which the optical pickup 29 is mounted, and a stepping motor 28c integrated with the lead screw 28b. The optical pickup 29 is installed between the rail 28a and the lead screw 28b that form a pair. The moving piece 29a corresponding to the rail 28a can slide on the rail 28a, and the moving piece 29b corresponding to the lead screw 28b is driven and rotated by the stepping motor 28c. Thus, a driving force is generated in the axial direction of the lead screw 28b. A pickup main body 29c on which an optical system and a light emitting / receiving element are mounted is supported between the moving pieces 29a and 29b.
[0056]
The above configuration is the same as that of the disk drive device 1 shown in FIGS. It should be noted that in this disk drive device 21, the guide mechanism 28 is formed to extend in the direction opposite to the ejection direction 33 a of the optical disk 22 and beyond the outer peripheral portion of the optical disk 22, and At the time of insertion / removal, the guide mechanism 28 is controlled by a control means (not shown), and as shown in FIGS. 2 to 4, after the optical pickup 29 is retracted to its extended end, as shown in FIG. That is, the traverse mechanism 24 is lowered. That is, when the optical disk 22 is inserted / removed, as shown in FIG. 3, the displacement of the optical pickup 29 in the disk drive device 1 described above is indicated by reference numeral S1, whereas the displacement in the disk drive device 21 is changed. The quantity is extended as indicated by the reference S2.
[0057]
In the disk drive device 21 configured as described above, the disk ejection operation will be described with reference to FIG. When it becomes necessary to eject the optical disk 22 to the outside of the apparatus, the spindle motor 27 immediately starts an operation of stopping its rotation, and the optical pickup 29 also stops the signal reading or writing operation. Thereafter, the optical pickup 29 is driven to shift outward in the radial direction of the optical disc 22 by the stepping motor 28c of the traverse mechanism 24, and as shown in FIGS. Wait at the end.
[0058]
Subsequently, the traverse mechanism 24 starts to descend in the direction of the arrow 34, and the turntable 26 and the optical disc 22 also descend. At this time, the clamper 25a starts to descend together with the optical disc 22 and the spindle motor 27 by the suction force of the clamp portion 25c to the turntable 26. When the lowering amount of the clamper 25a reaches the length of the connecting portion 25d, the lowering of the clamper 25a is limited by the flange portion 25d and the stopper 25b, so that the clamper 25a finishes the clamping operation, and the optical disc 22 is release.
[0059]
The released optical disk 22 continues to descend, but is received by the tray of the disk transport mechanism 23 and held in a substantially horizontal state, as shown in FIG. 2B. The spindle motor 27 further descends and stops at a position where it does not hinder the operation of the disk transport mechanism 23 described later. The tray of the disk transport mechanism 23 is transported in the discharge direction 33a by a transport mechanism drive unit (not shown) with the optical disk 22 placed thereon.
[0060]
The optical disk 22 is carried in the direction of the arrow 33b from the outside of the apparatus by a procedure substantially reverse to the above operation. Thus, in realizing the front loading, the traverse mechanism 24 is swung around the shaft 32a as a swing fulcrum and retracted from the transport path of the optical disc 22, thereby reducing the cost compared to an elevator mechanism or the like. The contact between the optical pickup 29 and the optical disk 22 can be avoided.
[0061]
Further, as described above, the guide mechanism 28 is formed to extend in the direction opposite to the ejection direction 33a, and when the optical disc 22 is inserted or removed, the optical pickup 29 is retracted to the extended end, and then the traverse mechanism 24 is moved. By lowering, even if the amount of sinking of the tip of the optical pickup 29 from the mounting surface of the optical disk 22 is small, contact between the tip and the optical disk 22 being inserted / removed can be reliably avoided. The disk drive device 21 can prevent breakage and reduce the oscillation displacement of the optical pickup 29 that is thicker than the spindle motor 27 to reduce the thickness of the entire device from H1 in the disk drive device 1 described above. Then, it is possible to reduce the thickness of H2.
[0062]
In the disk drive apparatus 1 described above, the optical pickup 9 stands by on the innermost circumference side of the optical disk 2, whereas in this disk drive apparatus 21, the optical pickup 29 stands by on the outermost circumference side of the optical disk 22. become. For this reason, there is a concern that reading of the disk status information, which is mainly recorded on the innermost circumference side and performed immediately after completion of loading, is delayed, and the response of the main information reading or writing operation is delayed.
[0063]
Here, as a driving means for the optical pickup 29, a gear train is often used for an inexpensive DC motor, particularly in a reproduction-only machine. However, this configuration is not preferable for a configuration in which the moving speed is slow and the optical pickup 29 stands by on the outermost peripheral side of the optical disc 22 like the disc drive device 21. Therefore, the lead screw 28b type stepping motor 28c as described above, which has a high moving speed, is used, but recently, due to technological innovation, an inexpensive stepping motor with good response has become available. Even with the configuration of the disk drive device 21, a system configuration that does not bother the deterioration of response can be realized at low cost.
[0064]
Further, in the disk drive device of the present invention, the control means (not shown) is in parallel with the operation of stopping the spindle motor 27 that rotationally drives the turntable 26 from decelerating in response to a request to eject the optical disk 22 from the outside. Then, the optical pickup 29 is retracted by the guide mechanism 28, and when they are completed, the optical disc 22 is ejected by the disc transport mechanism 23. Therefore, the optical pickup 29 is retracted after the spindle motor 27 is stopped. Rather than performing the deceleration operation, the time required for retracting the optical pickup 29 can be shortened, and the ejection operation for the next optical disk 22 can be quickly performed, and the unloading time can be shortened. Can do.
[0065]
The following describes the second embodiment of the present invention with reference to FIG.
[0066]
FIG. 5 is a plan view showing the structure of the traverse mechanism 44 in the disk drive device according to the second embodiment of the present invention. The traverse mechanism 44 is similar to the traverse mechanism 24 shown in FIG. 3 described above, and corresponding portions are denoted by the same reference numerals and description thereof is omitted. In the present invention, unlike the optical pickup 29 described above, the retracting direction does not necessarily coincide with the transport direction 33 of the optical disk 22. In other words, in the traverse mechanism 24, the displacement direction of the optical pickup 29 by the guide mechanism 28 is parallel to the discharge direction 33a. Is crossing the discharge direction 33a. However, as the angle is smaller than ± 90 ° from the ejection direction 33a, the possibility that the tip of the optical pickup 49 and the optical disk 22 come into contact with each other increases, and the guide mechanism 28 is extended to retract the optical pickup 49. Since the distance to be increased increases, ± 90 ° or more is desirable.
[0067]
The traverse mechanism 44 is not limited to the upstream end in the discharge direction 33a and the free end portion is not limited to the downstream side in the discharge direction 33a on the turntable 26 side. The free end portion is on the turntable 26 side. In addition, it suffices if the base end portion is within a range on the upstream side of the ejection direction 33a from the diameter line perpendicular to the ejection direction 33a of the optical disk 22 in a state where it is placed at the recording / reproducing position.
[0068]
The following describes the third embodiment of the present invention with reference to FIG. 6 and FIG.
[0069]
FIG. 6 is a longitudinal sectional view showing the structure of the traverse mechanism 54 in the disk drive apparatus according to the third embodiment of the present invention, and FIG. 7 is a plan view thereof. The traverse mechanism 54 is similar to the traverse mechanism 24 shown in FIGS. 2 and 3 described above, and corresponding portions are denoted by the same reference numerals, and the description thereof is omitted. It should be noted that in this traverse mechanism 54, the spindle motor unit comprising the turntable 26 and the spindle motor 27 is disconnected, and only the spindle motor unit is lowered by a spindle lifting mechanism (not shown) when the optical disk 22 is transported. Is Rukoto.
[0070]
That is, as described above, when the guide mechanism 28 is formed so as to extend in the direction intersecting the ejection direction 33a of the optical disk 22 and beyond the outer peripheral portion of the optical disk 22, the part that obstructs the disk transport is the spindle. Since only the motor unit is provided, the spindle motor unit is separated from the traverse mechanism 54. With this configuration, the spindle lifting mechanism is driven only by the spindle motor unit that is lighter than the entire weight of the traverse mechanism 54. Therefore, the mechanical mechanism is simplified, the cost is reduced, the apparatus is thinned, and Reliability can be improved.
[0071]
The following describes the fourth embodiment of the present invention with reference to FIG. 8 and FIG.
[0072]
FIG. 8 is a longitudinal sectional view showing the structure of the traverse mechanism 64 in the disk drive apparatus according to the fourth embodiment of the present invention, and FIG. 7 is a plan view thereof. The traverse mechanism 64 is similar to the traverse mechanism 54 shown in FIG. 6 and FIG. 7 described above, and corresponding portions are denoted by the same reference numerals and description thereof is omitted. It should be noted that in the traverse mechanism 64, the guide mechanism 28 is provided with a cleaning means 61 for the optical pickup 29 at an extended end. The cleaning means 61 includes, for example, a brush 61a that cleans the lens surface of the optical pickup 29 and a support member 61b that supports the brush 61a.
[0073]
Therefore, in order to avoid contact between the optical pickup 29 and the optical disc 22, the area newly required in the present invention for retracting the optical pickup 29 is effectively utilized by providing the cleaning means 61. be able to.
[0074]
The cleaning means 61 may always perform cleaning at the time of transporting the disk, or even when not at the time of transporting, the cleaning request from the outside and the quality of the read signal (signal amplitude, error rate, etc.) Cleaning may be performed by detecting that the set value is below the specified value.
[0075]
Further, the cleaning start timing at the time of transporting the disc is such that after the spindle motor 27 is stopped and the optical pickup 29 is retracted by the guide mechanism 28 in response to a request to eject the optical disc 22 from the outside, the disc is It may be performed simultaneously with the start of the ejection operation of the optical disk 22 by the transport mechanism 3. In that case, the end time of the cleaning can be shortened, and the next optical disk 22 can be read / written quickly without being completed before the next optical disk 22 is inserted.
[0076]
Furthermore, when the distance that can be extended by the guide mechanism 28 can be sufficiently secured, the cleaning means 61 is disposed further outward from the retracted position of the optical pickup 29 to perform the retracting operation and the cleaning operation. Another mode may be set. In that case, the cleaning operation is not performed during normal disk transport, and the optical pickup 29 is displaced to the cleaning means 61 for cleaning when requested from the outside and when the quality of the read signal is reduced. Can also be used.
[0077]
In the above description, the optical disk 22 is described as being used in a horizontal state, but it is needless to say that the optical disk 22 may be used in a vertically placed state as in many disk drive devices.
[0078]
【The invention's effect】
As described above, the disc-shaped recording medium insertion / removal method of the present invention is implemented by a front-loading type optical disc recording / reproducing apparatus or the like, and can move the recording medium in the surface direction to realize the front loading. Therefore, in the method for inserting / removing the disc-shaped recording medium, the mechanical block is arranged on the turntable side by swinging and displacing at least the mechanical block on which the pickup is mounted. Having a free end portion and a base end portion on the upstream side in the discharge direction of the recording medium, and when the recording medium is inserted or removed, the base end portion is used as a rocking fulcrum and the free end portion side is the recording medium. The pickup is retracted from the moving area of the recording medium by moving away in the thickness direction, and the contact between the pickup and the recording medium is reduced at a low cost. The pickup guide mechanism is formed on the mechanical block such that the locus of the pickup is parallel to the insertion / ejection direction of the recording medium, and the end on the radially outer side of the recording medium is formed. The portion is extended beyond the outer peripheral portion of the recording medium, and at the time of insertion / removal, the pickup is retracted to the extended end.
[0079]
Therefore, even if the amount of the tip of the pickup from the recording surface of the recording medium is small, contact with the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. Therefore, it is possible to reduce the amount of rocking displacement of the pickup that is thicker than the spindle motor, and to reduce the thickness of the apparatus.
[0080]
In addition, the disc-shaped recording medium insertion / removal method of the present invention is carried out by a so-called front-loading type optical disc recording / reproducing apparatus or the like, as described above, in the surface direction of the recording medium for realizing the front loading. In order to enable movement, at least a mechanical block on which the pickup is mounted is oscillated and displaced to displace the pickup, so that the disk-shaped recording medium is inserted and removed. A free end portion on the turntable side, and a base end portion on the upstream side in the discharge direction from a diameter line perpendicular to the discharge direction of the recording medium in a state where the recording medium is placed at the recording / reproducing position And the free end side moves away in the thickness direction of the recording medium with the base end as a swing fulcrum, so that the pick from the moving area of the recording medium. The pickup is retracted, the contact between the pickup and the recording medium is avoided at a low cost, and the pickup guide mechanism has a pickup trajectory within the upstream range of the discharge direction from the diameter line. Thus, the end portion on the outer side in the radial direction is formed so as to extend beyond the outer peripheral portion of the recording medium, and at the time of insertion / removal, the pickup is retracted to the extended end portion.
[0081]
Therefore, even if the amount of the tip of the pickup from the recording surface of the recording medium is small, contact with the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. Therefore, it is possible to reduce the amount of rocking displacement of the pickup that is thicker than the spindle motor, and to reduce the thickness of the apparatus.
[0082]
Furthermore, as described above, the disk drive apparatus of the present invention is implemented as a so-called front loading type optical disk recording / reproducing apparatus, and the like, and enables movement in the surface direction of the recording medium to realize the front loading. Therefore, in the disk drive device that realizes the sinking of the pickup by swinging and displacing at least the mechanical block on which the pickup is mounted, the mechanical block has a free end on the turntable side. And having a base end on the upstream side in the discharge direction of the recording medium, and when inserting or removing the recording medium, the base end is used as a rocking fulcrum and the free end side moves away in the thickness direction of the recording medium. The pickup and the recording medium can be saved at a low cost by retracting the pickup from the moving area of the recording medium. And the guide mechanism is arranged so that the locus of the pickup is parallel to the insertion / ejection direction of the recording medium and the end of the recording medium on the radially outer side is placed on the recording medium. In addition to extending the outer periphery, a control unit is provided, and when the recording medium is inserted or removed, the control unit drives the mechanical block and controls the guide mechanism to extend the pickup. Retreat to the end.
[0083]
Therefore, even if the amount of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor, and to reduce the thickness of the apparatus.
[0084]
Further, as described above, the disk drive apparatus of the present invention is implemented as a so-called front loading type optical disk recording / reproducing apparatus or the like, and enables movement of the recording medium in the surface direction to realize the front loading. Therefore, in the disk drive device that realizes the sinking of the pickup by swinging and displacing at least the mechanical block on which the pickup is mounted, the mechanical block has a free end on the turntable side. When the recording medium is mounted at the recording / reproducing position, the recording medium has a proximal end portion on the upstream side in the ejection direction from a diameter line perpendicular to the ejection direction of the recording medium. The moving end of the recording medium is moved by moving the free end side away from the base end in the thickness direction of the recording medium, with the base end serving as a pivot point. The pickup is withdrawn from the low-cost, avoiding contact between the pickup and the recording medium, and the guide mechanism has a path of the pickup that is within a range upstream from the diameter line in the discharge direction. And an end portion on the outer side in the radial direction extending beyond the outer peripheral portion of the recording medium, and a control means is provided, and when the recording means is inserted and removed, the control means While driving, the guide mechanism is controlled so that the pickup is retracted to the extended end.
[0085]
Therefore, even if the amount of the tip of the pickup from the mounting surface of the recording medium is small, contact between the tip and the recording medium being inserted / removed can be reliably avoided, and damage to the pickup can be prevented. In addition, it is possible to reduce the swing displacement of the pickup that is thicker than the spindle motor, and to reduce the thickness of the apparatus.
[0086]
Furthermore, as described above, the disk drive device of the present invention, when realizing the so-called front loading, the pickup guide mechanism, the pickup locus is in a state where the recording medium is placed at the recording / reproducing position. The radially outer end of the recording medium extends beyond the outer peripheral portion of the recording medium so that it is within a range upstream of the diameter line perpendicular to the recording medium ejection direction. In addition, a control unit is provided, and when the recording medium is inserted / removed, the control unit controls the guide mechanism, and the pickup is retracted to the extended end portion.
[0087]
Therefore, it is possible to reliably avoid contact between the tip of the pickup and the recording medium being inserted / removed and to prevent damage to the pickup, and to avoid such contact between the pickup and the recording medium. There is no need to shift the recording medium in the thickness direction of the recording medium, and the apparatus can be thinned. Further, the mechanical mechanism that performs the variable movement operation can be reduced, and the mechanical mechanism can be simplified, the cost can be reduced, and the reliability can be improved.
[0088]
Further, as described above, in the disk drive device of the present invention, the control means is in parallel with the operation of stopping the spindle motor that rotationally drives the turntable from decelerating in response to an external recording medium discharge request. Then, the pickup mechanism is retracted by the guide mechanism, and when the pickup is completed, the recording medium is discharged by the transport mechanism.
[0089]
Therefore, the pickup is not evacuated after the spindle motor is stopped, but is performed in parallel with the deceleration operation, the time required for evacuating the pickup is shortened, and the next recording medium ejection operation is started immediately. And unloading time can be shortened.
[0090]
Furthermore, as described above, the disk drive device of the present invention is provided with the pickup cleaning means at the end of the extended guide mechanism.
[0091]
Therefore, in order to avoid contact with the recording medium, the area newly required in the present invention for retracting the pickup can be effectively utilized by providing a cleaning means such as a cleaner.
[0092]
Further, as described above, in the disk drive device of the present invention, the spindle motor that rotationally drives the turntable stops in response to a request to eject the recording medium from the outside, and the withdrawal of the pickup by the guide mechanism is completed. After that, when the recording medium is discharged by the transport mechanism, the cleaning unit cleans the pickup.
[0093]
Therefore, together with the start of the discharge operation of the recording medium by the transport mechanism, the cleaning means performs the cleaning of the pickup, so that the cleaning end time can be shortened and completed by the insertion of the next recording medium, Or even if it is not completed, the next recording medium can be read / written quickly.
[Brief description of the drawings]
FIG. 1 is a plan view showing a structure of a disk drive device according to a first embodiment of the present invention.
2 is a longitudinal sectional view for explaining the operation of the disk drive device shown in FIG. 1; FIG.
3 is a plan view of a traverse mechanism in the disk drive device shown in FIG. 1. FIG.
4 is a bottom view of a traverse mechanism in the disk drive device shown in FIG. 1. FIG.
FIG. 5 is a plan view showing a structure of a traverse mechanism in a disk drive device according to a second embodiment of the present invention.
FIG. 6 is a longitudinal sectional view showing a structure of a traverse mechanism in a disk drive device according to a third embodiment of the present invention.
7 is a plan view of a traverse mechanism in the disk drive device shown in FIG. 6. FIG.
FIG. 8 is a longitudinal sectional view showing a structure of a traverse mechanism in a disk drive device according to a fourth embodiment of the present invention.
9 is a plan view of a traverse mechanism in the disk drive device shown in FIG.
FIG. 10 is a plan view showing the structure of a conventional disk drive device.
FIG. 11 is a longitudinal sectional view for explaining the operation of the disk drive device shown in FIG. 10;
12 is a plan view of a traverse mechanism in the disk drive device shown in FIG.
13 is a bottom view of a traverse mechanism in the disk drive device shown in FIG.
[Explanation of symbols]
21 Disk drive device
22 Optical disc (disc-shaped recording medium)
23 Disk transport mechanism (transport mechanism)
24, 44, 54, 64 Traverse mechanism (mechanical block)
25 Clamp mechanism
25a Clamper
25b Stopper
25c Clamp part
26 Turntable
27 Spindle motor
28 Guide mechanism
28a rail
28b Lead screw
28c stepping motor
29, 49 Optical pickup
29a, 29b Moving piece
29c Pickup body
32 frame (swing mechanism)
32a shaft
33 Insertion / ejection direction
33a Discharge direction
35 Table hole
61 Cleaning means
61a brush
61b Support member

Claims (8)

When the disk-shaped recording medium is inserted / removed, the pickup sinks from the mounting surface of the recording medium so that the recording medium is inserted / removed in the surface direction while avoiding contact between the recording medium and the pickup. The mechanical block on which the pickup is mounted has a free end on the turntable side and a base end on the upstream side in the discharge direction of the recording medium. However, in the method of inserting / removing the disc-shaped recording medium in which the sinking is realized by moving the free end side away in the thickness direction of the recording medium with the base end portion as a swing fulcrum,
A guide mechanism for guiding the pickup in a substantially radial direction of the recording medium to realize recording / reproduction is formed on the mechanical block so that the locus of the pickup is parallel to the insertion / ejection direction of the recording medium. And an end portion on the radially outer side of the recording medium is extended beyond the outer peripheral portion of the recording medium, and the pickup is retracted to the extended end portion at the time of the insertion / removal. A method for inserting and removing a disc-shaped recording medium. When the disk-shaped recording medium is inserted / removed, the pickup sinks from the mounting surface of the recording medium so that the recording medium is inserted / removed in the surface direction while avoiding contact between the recording medium and the pickup. The mechanical block on which the pickup is mounted has a free end on the turntable side, and in a state where the recording medium is placed at the recording / reproducing position, from the diameter line perpendicular to the ejection direction of the recording medium. When the recording medium is inserted / removed, the mechanical block has the base end portion as a rocking fulcrum and the free end portion moves away from the recording medium in the thickness direction of the recording medium. In the method for inserting and removing the disk-shaped recording medium so as to realize the subduction,
In order to realize the recording / reproduction, a guide mechanism for guiding the pickup in a substantially radial direction of the recording medium, the trajectory of the pickup being within a range upstream from the diameter line in the discharge direction. An end on the outer side in the radial direction is formed so as to extend beyond the outer periphery of the recording medium, and the pickup is retracted to the extended end at the time of insertion / removal. A method for inserting and removing a disc-shaped recording medium. When the disk-shaped recording medium is inserted / removed, the pickup sinks from the mounting surface of the recording medium so that the recording medium is inserted / removed in the surface direction while avoiding contact between the recording medium and the pickup. The mechanical block on which the pickup is mounted has a free end on the turntable side and a base end on the upstream side in the discharge direction of the recording medium. However, with the base end portion as a rocking fulcrum, the free end portion moves away in the thickness direction of the recording medium, thereby realizing the sinking,
A guide mechanism for guiding the pickup in a substantially radial direction of the recording medium to realize recording / reproduction is formed on the mechanical block so that a locus of the pickup is parallel to the insertion / ejection direction of the recording medium. And an end portion on the radially outer side of the recording medium is formed to extend beyond the outer peripheral portion of the recording medium,
A disk drive apparatus comprising: a control unit that drives the mechanical block when the recording medium is inserted and removed, controls the guide mechanism, and retracts the pickup to the extended end portion. When the disk-shaped recording medium is inserted / removed, the pickup sinks from the mounting surface of the recording medium so that the recording medium is inserted / removed in the surface direction while avoiding contact between the recording medium and the pickup. The mechanical block on which the pickup is mounted has a free end on the turntable side, and in a state where the recording medium is placed at the recording / reproducing position, from the diameter line perpendicular to the ejection direction of the recording medium. When the recording medium is inserted / removed, the mechanical block has the base end portion as a rocking fulcrum and the free end portion moves away from the recording medium in the thickness direction of the recording medium. In the disk drive device that realizes the sinking,
In order to realize the recording / reproduction, the guide mechanism for guiding the pickup in the substantially radial direction of the recording medium has the trajectory of the pickup within the range upstream of the diameter line in the discharge direction. Formed on the mechanical block, and its radially outward end extends beyond the outer periphery of the recording medium,
A disk drive apparatus comprising: a control unit that drives the mechanical block when the recording medium is inserted and removed, controls the guide mechanism, and retracts the pickup to the extended end portion. The disk-shaped recording medium is rotationally driven by a turntable, and the guide mechanism moves the pickup in the substantially radial direction while bringing the pickup close to the recording surface of the recording medium, thereby sequentially recording / recording the information on the recording surface. In the disk drive device that is designed to play,
In the guide mechanism, the locus of the pickup is within a range upstream of the diameter line perpendicular to the discharge direction of the recording medium in a state where the recording medium is placed at the recording / reproducing position. And the end portion on the radially outer side extends beyond the outer peripheral portion of the recording medium,
A disk drive apparatus comprising control means for controlling the guide mechanism when the recording medium is inserted / removed and retracting the pickup to the extended end. In response to a request to eject the recording medium from the outside, the control means causes the guide mechanism to retract the pickup in parallel with the operation of stopping the spindle motor that rotationally drives the turntable from being decelerated. Then, the disk drive apparatus according to claim 3, wherein the recording medium is discharged by a transport mechanism. 7. The disk drive device according to claim 2, wherein a cleaning means for the pickup is provided at an end portion of the extended guide mechanism. In response to an external recording medium discharge request, the control means stops the spindle motor that rotationally drives the turntable, and after the withdrawal of the pickup by the guide mechanism is completed, 8. The disk drive device according to claim 7, wherein the pickup is caused to clean the pickup unit when the discharge operation is started.

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